Class rad_utils
In: radiation/rad_utils.f90

放射関連ルーチン

Routines for radiation calculation

Note that Japanese and English are described in parallel.

Procedures List

RadDTempDt :放射フラックスによる温度変化の計算
RadFluxOutput :放射フラックスの出力
———— :————
RadDTempDt :Calculate temperature tendency with radiation flux
RadFluxOutput :Output radiation fluxes

NAMELIST

NAMELIST#rad_utils_nml

Methods

Included Modules

dc_types constants gridset dc_message planck_func timeset gtool_historyauto namelist_util dc_iounit dc_string

Public Instance methods

Subroutine :
xyr_RadLFlux(0:imax-1, 1:jmax, 0:kmax) :real(DP), intent(in)
: 長波フラックス. Longwave flux
xyr_RadSFlux(0:imax-1, 1:jmax, 0:kmax) :real(DP), intent(in)
: 短波 (日射) フラックス. Shortwave (insolation) flux
xyr_Press(0:imax-1, 1:jmax, 0:kmax) :real(DP), intent(in)
: $ hat{p} $ . 気圧 (半整数レベル). Air pressure (half level)
xyz_DTempDtRadL(0:imax-1, 1:jmax, 1:kmax) :real(DP), intent(out)
: 長波加熱率. Temperature tendency with longwave
xyz_DTempDtRadS(0:imax-1, 1:jmax, 1:kmax) :real(DP), intent(out)
: 短波加熱率. Temperature tendency with shortwave

放射による温度変化率を計算します.

Temperature tendency with radiation is calculated.

[Source]

  subroutine RadDTempDt( xyr_RadLFlux, xyr_RadSFlux, xyr_Press, xyz_DTempDtRadL, xyz_DTempDtRadS )
    !
    ! 放射による温度変化率を計算します. 
    ! 
    ! Temperature tendency with radiation is calculated. 
    !

    ! モジュール引用 ; USE statements
    !

    ! 時刻管理
    ! Time control
    !
    use timeset, only: TimeN, TimesetClockStart, TimesetClockStop

    ! ヒストリデータ出力
    ! History data output
    !
    use gtool_historyauto, only: HistoryAutoPut


    ! 宣言文 ; Declaration statements
    !
    implicit none
    real(DP), intent(in):: xyr_RadLFlux (0:imax-1, 1:jmax, 0:kmax)
                              ! 長波フラックス. 
                              ! Longwave flux
    real(DP), intent(in):: xyr_RadSFlux (0:imax-1, 1:jmax, 0:kmax)
                              ! 短波 (日射) フラックス. 
                              ! Shortwave (insolation) flux
    real(DP), intent(in):: xyr_Press    (0:imax-1, 1:jmax, 0:kmax)
                              ! $ \hat{p} $ . 気圧 (半整数レベル). 
                              ! Air pressure (half level)
    real(DP), intent(out):: xyz_DTempDtRadL (0:imax-1, 1:jmax, 1:kmax)
                              ! 長波加熱率. 
                              ! Temperature tendency with longwave
    real(DP), intent(out):: xyz_DTempDtRadS (0:imax-1, 1:jmax, 1:kmax)
                              ! 短波加熱率. 
                              ! Temperature tendency with shortwave

    ! 作業変数
    ! Work variables
    !
    integer:: k               ! 鉛直方向に回る DO ループ用作業変数
                              ! Work variables for DO loop in vertical direction

    ! 実行文 ; Executable statement
    !

    ! 計算時間計測開始
    ! Start measurement of computation time
    !
    call TimesetClockStart( module_name )

    ! 初期化
    ! Initialization
    !
    if ( .not. rad_utils_inited ) call RadInit

    ! 放射冷却率の演算
    ! Calculate radiation cooling rate
    !
    do k = 1, kmax
      xyz_DTempDtRadL(:,:,k) = (     xyr_RadLFlux(:,:,k-1) - xyr_RadLFlux(:,:,k) ) / ( xyr_Press(:,:,k-1)    - xyr_Press(:,:,k) ) / CpDry * Grav

      xyz_DTempDtRadS(:,:,k) = (     xyr_RadSFlux(:,:,k-1) - xyr_RadSFlux(:,:,k) ) / ( xyr_Press(:,:,k-1)    - xyr_Press(:,:,k) ) / CpDry * Grav
    end do


    ! ヒストリデータ出力
    ! History data output
    !
    call HistoryAutoPut( TimeN, 'DTempDtRadL' , xyz_DTempDtRadL )
    call HistoryAutoPut( TimeN, 'DTempDtRadS' , xyz_DTempDtRadS )


    ! 計算時間計測一時停止
    ! Pause measurement of computation time
    !
    call TimesetClockStop( module_name )

  end subroutine RadDTempDt
Subroutine :
xyr_RadSFlux(0:imax-1, 1:jmax, 0:kmax) :real(DP), intent(in)
: 短波 (日射) フラックス. Shortwave (insolation) flux
xyr_RadLFlux(0:imax-1, 1:jmax, 0:kmax) :real(DP), intent(in)
: 長波フラックス. Longwave flux
xyra_DelRadLFlux(0:imax-1, 1:jmax, 0:kmax, 0:1) :real(DP), intent(in)
: 長波地表温度変化. Surface temperature tendency with longwave
xy_DSurfTempDt(0:imax-1, 1:jmax) :real(DP), intent(in)
: 地表面温度変化率. Surface temperature tendency
xyz_DTempDt(0:imax-1, 1:jmax, 1:kmax) :real(DP), intent(in)
: $ DP{T}{t} $ . 温度変化 (K s-1) Temperature tendency (K s-1)

放射フラックス (xyr_RadSFlux, xyr_RadLFlux) について, その他の引数を用いて補正し, 出力を行う.

Radiation fluxes (xyr_RadSFlux, xyr_RadLFlux) are corrected by using other arguments, and the corrected values are output.

[Source]

  subroutine RadFluxOutput( xyr_RadSFlux, xyr_RadLFlux, xyra_DelRadLFlux, xy_DSurfTempDt, xyz_DTempDt )
    !
    ! 放射フラックス (xyr_RadSFlux, xyr_RadLFlux) 
    ! について, その他の引数を用いて補正し, 出力を行う. 
    !
    ! Radiation fluxes (xyr_RadSFlux, xyr_RadLFlux) are
    ! corrected by using other arguments, and the corrected values are output.
    !

    ! モジュール引用 ; USE statements
    !

    ! 時刻管理
    ! Time control
    !
    use timeset, only: DelTime, TimeN, TimesetClockStart, TimesetClockStop

    ! ヒストリデータ出力
    ! History data output
    !
    use gtool_historyauto, only: HistoryAutoPut

    ! 宣言文 ; Declaration statements
    !
    implicit none
    real(DP), intent(in):: xyr_RadSFlux    (0:imax-1, 1:jmax, 0:kmax)
                              ! 短波 (日射) フラックス. 
                              ! Shortwave (insolation) flux
    real(DP), intent(in):: xyr_RadLFlux    (0:imax-1, 1:jmax, 0:kmax)
                              ! 長波フラックス. 
                              ! Longwave flux
    real(DP), intent(in):: xyra_DelRadLFlux(0:imax-1, 1:jmax, 0:kmax, 0:1)
                              ! 長波地表温度変化. 
                              ! Surface temperature tendency with longwave
    real(DP), intent(in):: xy_DSurfTempDt  (0:imax-1, 1:jmax)
                              ! 地表面温度変化率. 
                              ! Surface temperature tendency
    real(DP), intent(in):: xyz_DTempDt     (0:imax-1, 1:jmax, 1:kmax)
                              ! $ \DP{T}{t} $ . 温度変化 (K s-1)
                              ! Temperature tendency (K s-1)

    ! 出力のための作業変数
    ! Work variables for output
    !
    real(DP):: xyr_RadLFluxCor (0:imax-1, 1:jmax, 0:kmax)
                              ! 補正された長波フラックス. 
                              ! Corrected longwave flux

    ! 作業変数
    ! Work variables
    !
    integer:: k               ! 鉛直方向に回る DO ループ用作業変数
                              ! Work variables for DO loop in vertical direction
    ! 実行文 ; Executable statement
    !

    ! 計算時間計測開始
    ! Start measurement of computation time
    !
    call TimesetClockStart( module_name )

    ! 初期化
    ! Initialization
    !
    if ( .not. rad_utils_inited ) call RadInit

    ! 長波フラックスの補正 ( 地表フラックス分の補正 )
    ! Correct longwave flux ( amount of surface flux )
    !
    ! Lines commented out below will be deleted soon (yot, 2010/10/31).
!!$    do k = 0, kmax
!!$      xyr_RadLFluxCor (:,:,k) = &
!!$        &     xyr_RadLFlux (:,:,k) &
!!$        &   + xyra_DelRadLFlux(:,:,k,0) * xy_DSurfTempDt (:,:) * DelTime
!!$    end do
    do k = 0, kmax
      xyr_RadLFluxCor(:,:,k) = xyr_RadLFlux(:,:,k) + (   xy_DSurfTempDt     * xyra_DelRadLFlux(:,:,k,0) + xyz_DTempDt(:,:,1) * xyra_DelRadLFlux(:,:,k,1) ) * DelTime
    end do

    ! ヒストリデータ出力
    ! History data output
    !
    call HistoryAutoPut( TimeN, 'OLR' , xyr_RadLFluxCor(:,:,kmax) )
    call HistoryAutoPut( TimeN, 'SLR' , xyr_RadLFluxCor(:,:,0)    )
    call HistoryAutoPut( TimeN, 'OSR' , xyr_RadSFlux   (:,:,kmax) )
    call HistoryAutoPut( TimeN, 'SSR' , xyr_RadSFlux   (:,:,0)    )


    ! ヒストリデータ出力
    ! History data output
    !
    call HistoryAutoPut( TimeN, 'OLRB', xyr_RadLFlux   (:,:,kmax) )
    call HistoryAutoPut( TimeN, 'SLRB', xyr_RadLFlux   (:,:,0)    )
    call HistoryAutoPut( TimeN, 'OSRB', xyr_RadSFlux   (:,:,kmax) )
    call HistoryAutoPut( TimeN, 'SSRB', xyr_RadSFlux   (:,:,0)    )


    ! 長波フラックスの補正 ( 地表フラックス分の補正 )
    ! Correct longwave flux ( amount of surface flux )
    !
    ! Lines commented out below will be deleted soon (yot, 2010/10/31).
!!$    do k = 0, kmax
!!$      xyr_RadLFluxCor (:,:,k) = &
!!$        &     xyr_RadLFlux (:,:,k) &
!!$        &   + xyra_DelRadLFlux(:,:,k,0) * xy_DSurfTempDt (:,:) * 2.0d0 * DelTime
!!$    end do
    do k = 0, kmax
      xyr_RadLFluxCor(:,:,k) = xyr_RadLFlux(:,:,k) + (   xy_DSurfTempDt     * xyra_DelRadLFlux(:,:,k,0) + xyz_DTempDt(:,:,1) * xyra_DelRadLFlux(:,:,k,1) ) * 2.0_DP * DelTime
    end do

    ! ヒストリデータ出力
    ! History data output
    !
    call HistoryAutoPut( TimeN, 'OLRA', xyr_RadLFluxCor(:,:,kmax) )
    call HistoryAutoPut( TimeN, 'SLRA', xyr_RadLFluxCor(:,:,0)    )
    call HistoryAutoPut( TimeN, 'OSRA', xyr_RadSFlux   (:,:,kmax) )
    call HistoryAutoPut( TimeN, 'SSRA', xyr_RadSFlux   (:,:,0)    )


    ! 計算時間計測一時停止
    ! Pause measurement of computation time
    !
    call TimesetClockStop( module_name )

  end subroutine RadFluxOutput
Subroutine :
xyz_IntPF(0:imax-1, 1:jmax, 1:kmax) :real(DP), intent(in )
: Integrated Planck function
xy_SurfIntPF(0:imax-1, 1:jmax) :real(DP), intent(in )
: Integrated Planck function with surface temperature
xy_IntDPFDT1(0:imax-1, 1:jmax) :real(DP), intent(in )
: Integrated temperature derivative of Planck function
xy_SurfIntDPFDT(0:imax-1, 1:jmax) :real(DP), intent(in )
: Integrated temperature derivative of Planck function with surface temperature
xyrr_Trans(0:imax-1, 1:jmax, 0:kmax, 0:kmax) :real(DP), intent(in )
: 透過係数. Transmission coefficient
xyr_RadLFlux(0:imax-1, 1:jmax, 0:kmax) :real(DP), intent(out)
: 長波フラックス. Longwave flux
xyra_DelRadLFlux(0:imax-1, 1:jmax, 0:kmax, 0:1) :real(DP), intent(out)
: 長波地表温度変化. Surface temperature tendency with longwave

散乱なしの場合の放射伝達方程式の計算

Integrate radiative transfer equation without scattering

[Source]

  subroutine RadRTEQNonScat( xyz_IntPF, xy_SurfIntPF, xy_IntDPFDT1, xy_SurfIntDPFDT, xyrr_Trans, xyr_RadLFlux, xyra_DelRadLFlux )
    !
    ! 散乱なしの場合の放射伝達方程式の計算
    !
    ! Integrate radiative transfer equation without scattering
    !

    ! モジュール引用 ; USE statements
    !


    ! 宣言文 ; Declaration statements
    !

    real(DP), intent(in ) :: xyz_IntPF        (0:imax-1, 1:jmax, 1:kmax)
                              ! Integrated Planck function
    real(DP), intent(in ) :: xy_SurfIntPF     (0:imax-1, 1:jmax)
                              ! Integrated Planck function with surface temperature
    real(DP), intent(in ) :: xy_IntDPFDT1     (0:imax-1, 1:jmax)
                              ! Integrated temperature derivative of Planck function
    real(DP), intent(in ) :: xy_SurfIntDPFDT  (0:imax-1, 1:jmax)
                              ! Integrated temperature derivative of Planck function
                              ! with surface temperature
    real(DP), intent(in ) :: xyrr_Trans   (0:imax-1, 1:jmax, 0:kmax, 0:kmax)
                              ! 透過係数. 
                              ! Transmission coefficient
    real(DP), intent(out) :: xyr_RadLFlux (0:imax-1, 1:jmax, 0:kmax)
                              ! 長波フラックス. 
                              ! Longwave flux
    real(DP), intent(out) :: xyra_DelRadLFlux (0:imax-1, 1:jmax, 0:kmax, 0:1)
                              ! 長波地表温度変化. 
                              ! Surface temperature tendency with longwave


    ! 作業変数
    ! Work variables
    !
    real(DP):: xyr_RadLDoFlux (0:imax-1, 1:jmax, 0:kmax)
    real(DP):: xyr_RadLUpFlux (0:imax-1, 1:jmax, 0:kmax)

    integer:: k, kk           ! 鉛直方向に回る DO ループ用作業変数
                              ! Work variables for DO loop in vertical direction

    ! 実行文 ; Executable statement
    !

    ! 初期化
    ! Initialization
    !
    if ( .not. rad_utils_inited ) call RadInit



    ! 放射フラックス計算
    ! Calculate radiation flux
    !
!!$    do k = 0, kmax
!!$
!!$      xyr_RadLFlux(:,:,k) = xy_SurfEmis * PI * xy_SurfIntPF * xyrr_Trans(:,:,k,0)
!!$
!!$      do kk = 0, kmax-1
!!$        xyr_RadLFlux(:,:,k) = xyr_RadLFlux(:,:,k)                &
!!$          & - PI * xyz_IntPF(:,:,kk+1)                           &
!!$          & * ( xyrr_Trans(:,:,k,kk) - xyrr_Trans(:,:,k,kk+1) )
!!$      end do
!!$
!!$    end do


    !   Initialization
    !
    xyr_RadLDoFlux = 0.0_DP
    xyr_RadLUpFlux = 0.0_DP
    !
    !   Downward flux
    !
    do k = kmax, 0, -1

      do kk = kmax, k+1, -1
        xyr_RadLDoFlux(:,:,k) = xyr_RadLDoFlux(:,:,k) + xyz_IntPF(:,:,kk) * ( xyrr_Trans(:,:,k,kk-1) - xyrr_Trans(:,:,k,kk) )
      end do

    end do
    !
    !   Upward flux
    !
    !     Set upward flux
    !
    do k = 0, kmax

      xyr_RadLUpFlux(:,:,k) = xy_SurfIntPF * xyrr_Trans(:,:,k,0)

      do kk = 1, k
        xyr_RadLUpFlux(:,:,k) = xyr_RadLUpFlux(:,:,k) - xyz_IntPF(:,:,kk) * ( xyrr_Trans(:,:,k,kk-1) - xyrr_Trans(:,:,k,kk) )
      end do

    end do

    xyr_RadLFlux = xyr_RadLUpFlux - xyr_RadLDoFlux


    ! 放射フラックスの変化率の計算
    ! Calculate rate of change of radiative flux
    !
    do k = 0, kmax
      xyra_DelRadLFlux(:,:,k,0) = xy_SurfIntDPFDT * xyrr_Trans(:,:,k,0)

      xyra_DelRadLFlux(:,:,k,1) = - xy_IntDPFDT1(:,:) * ( xyrr_Trans(:,:,k,0) - xyrr_Trans(:,:,k,1) )
    end do


  end subroutine RadRTEQNonScat
Subroutine :
xyz_Temp(0:imax-1, 1:jmax, 1:kmax) :real(DP), intent(in )
: $ T $ . 温度. Temperature
xy_SurfTemp(0:imax-1, 1:jmax) :real(DP), intent(in )
: 地表面温度. Surface temperature
xy_SurfEmis(0:imax-1, 1:jmax) :real(DP), intent(in )
: 惑星表面射出率. Surface emissivity
xyrr_Trans(0:imax-1, 1:jmax, 0:kmax, 0:kmax) :real(DP), intent(in )
: 透過係数. Transmission coefficient
xyr_RadLFlux(0:imax-1, 1:jmax, 0:kmax) :real(DP), intent(out)
: 長波フラックス. Longwave flux
xyra_DelRadLFlux(0:imax-1, 1:jmax, 0:kmax, 0:1) :real(DP), intent(out)
: 長波地表温度変化. Surface temperature tendency with longwave
WNs :real(DP), intent(in ), optional
WNe :real(DP), intent(in ), optional
NumGaussNode :integer , intent(in ), optional

散乱なしの場合の放射伝達方程式の計算

Integrate radiative transfer equation without scattering

[Source]

  subroutine RadRTEQNonScatWrapper( xyz_Temp, xy_SurfTemp, xy_SurfEmis, xyrr_Trans, xyr_RadLFlux, xyra_DelRadLFlux, WNs, WNe, NumGaussNode )
    !
    ! 散乱なしの場合の放射伝達方程式の計算
    !
    ! Integrate radiative transfer equation without scattering
    !

    ! モジュール引用 ; USE statements
    !


    ! プランク関数の計算
    ! Calculate Planck function
    !
    use planck_func, only : Integ_PF_GQ_Array3D   , Integ_PF_GQ_Array2D, Integ_DPFDT_GQ_Array3D, Integ_DPFDT_GQ_Array2D

    ! 宣言文 ; Declaration statements
    !

    real(DP), intent(in ) :: xyz_Temp    (0:imax-1, 1:jmax, 1:kmax)
                              ! $ T $ .     温度. Temperature
    real(DP), intent(in ) :: xy_SurfTemp (0:imax-1, 1:jmax)
                              ! 地表面温度. 
                              ! Surface temperature
    real(DP), intent(in ) :: xy_SurfEmis (0:imax-1, 1:jmax)
                              ! 惑星表面射出率. 
                              ! Surface emissivity
    real(DP), intent(in ) :: xyrr_Trans   (0:imax-1, 1:jmax, 0:kmax, 0:kmax)
                              ! 透過係数. 
                              ! Transmission coefficient
    real(DP), intent(out) :: xyr_RadLFlux (0:imax-1, 1:jmax, 0:kmax)
                              ! 長波フラックス. 
                              ! Longwave flux
    real(DP), intent(out) :: xyra_DelRadLFlux (0:imax-1, 1:jmax, 0:kmax, 0:1)
                              ! 長波地表温度変化. 
                              ! Surface temperature tendency with longwave
    real(DP), intent(in ), optional :: WNs
    real(DP), intent(in ), optional :: WNe
    integer , intent(in ), optional :: NumGaussNode


    ! 作業変数
    ! Work variables
    !
    real(DP):: xyz_IntPF        (0:imax-1, 1:jmax, 1:kmax)
                              ! Integrated Planck function
    real(DP):: xy_SurfIntPF     (0:imax-1, 1:jmax)
                              ! Integrated Planck function with surface temperature
    real(DP):: xyz_IntDPFDT     (0:imax-1, 1:jmax, 1:kmax)
                              ! Integrated temperature derivative of Planck function
    real(DP):: xy_SurfIntDPFDT  (0:imax-1, 1:jmax)
                              ! Integrated temperature derivative of Planck function
                              ! with surface temperature


    ! 実行文 ; Executable statement
    !

    ! 初期化
    ! Initialization
    !
    if ( .not. rad_utils_inited ) call RadInit


    ! Check arguments
    !
    if ( present( WNs ) .or. present( WNe ) .or. present( NumGaussNode ) ) then
      if ( .not. ( present( WNs ) .and. present( WNe ) .and. present( NumGaussNode ) ) ) then
        call MessageNotify( 'E', module_name, 'All of WNs, WNe, and NumGaussNode have to be present.' )
      end if
    end if


    if ( present( WNs ) ) then
      ! Case for non-grey atmosphere
      !

      ! Integrate Planck function and temperature derivative of it
      !
      call Integ_PF_GQ_Array3D( WNs, WNe, NumGaussNode, 0, imax-1, 1, jmax, 1, kmax, xyz_Temp, xyz_IntPF )
      call Integ_PF_GQ_Array2D( WNs, WNe, NumGaussNode, 0, imax-1, 1, jmax, xy_SurfTemp, xy_SurfIntPF )
      call Integ_DPFDT_GQ_Array3D( 0, imax-1, 1, jmax, 1, kmax, WNs, WNe, NumGaussNode, xyz_Temp, xyz_IntDPFDT )
      call Integ_DPFDT_GQ_Array2D( 0, imax-1, 1, jmax, WNs, WNe, NumGaussNode, xy_SurfTemp, xy_SurfIntDPFDT )

      xyz_IntPF       = PI * xyz_IntPF
      xy_SurfIntPF    = PI * xy_SurfIntPF
      xyz_IntDPFDT    = PI * xyz_IntDPFDT
      xy_SurfIntDPFDT = PI * xy_SurfIntDPFDT

    else

      ! Case for grey atmosphere
      !
      xyz_IntPF       =                        StB * xyz_Temp**4
      xy_SurfIntPF    = xy_SurfEmis          * StB * xy_SurfTemp**4
      xyz_IntDPFDT    =               4.0_DP * StB * xyz_Temp**3
      xy_SurfIntDPFDT = xy_SurfEmis * 4.0_DP * StB * xy_SurfTemp**3

    end if


    call RadRTEQNonScat( xyz_IntPF, xy_SurfIntPF, xyz_IntDPFDT(:,:,1), xy_SurfIntDPFDT, xyrr_Trans, xyr_RadLFlux, xyra_DelRadLFlux )


  end subroutine RadRTEQNonScatWrapper
rad_utils_inited
Variable :
rad_utils_inited = .false. :logical, save, public
: 初期設定フラグ. Initialization flag

Private Instance methods

DiffFact
Variable :
DiffFact :real(DP), save
Subroutine :

rad_utils モジュールの初期化を行います. NAMELIST#rad_utils_nml の読み込みはこの手続きで行われます.

"rad_utils" module is initialized. "NAMELIST#rad_utils_nml" is loaded in this procedure.

This procedure input/output NAMELIST#rad_utils_nml .

[Source]

  subroutine RadInit
    !
    ! rad_utils モジュールの初期化を行います. 
    ! NAMELIST#rad_utils_nml の読み込みはこの手続きで行われます. 
    !
    ! "rad_utils" module is initialized. 
    ! "NAMELIST#rad_utils_nml" is loaded in this procedure. 
    !

    ! モジュール引用 ; USE statements
    !

    ! NAMELIST ファイル入力に関するユーティリティ
    ! Utilities for NAMELIST file input
    !
    use namelist_util, only: namelist_filename, NmlutilMsg, NmlutilAryValid

    ! ファイル入出力補助
    ! File I/O support
    !
    use dc_iounit, only: FileOpen

    ! ヒストリデータ出力
    ! History data output
    !
    use gtool_historyauto, only: HistoryAutoAddVariable

    ! 文字列操作
    ! Character handling
    !
    use dc_string, only: toChar

    ! 宣言文 ; Declaration statements
    !
    integer:: unit_nml        ! NAMELIST ファイルオープン用装置番号. 
                              ! Unit number for NAMELIST file open
    integer:: iostat_nml      ! NAMELIST 読み込み時の IOSTAT. 
                              ! IOSTAT of NAMELIST read


    ! NAMELIST 変数群
    ! NAMELIST group name
    !
    namelist /rad_utils_nml/ DiffFact
!!$      & DelTimeLongValue, DelTimeLongUnit, &
!!$      & DelTimeShortValue, DelTimeShortUnit, &
!!$!
!!$      & LongBandNum, &
!!$      & LongAbsorpCoefQVap, LongAbsorpCoefDryAir, &
!!$      & LongBandWeight, LongPathLengthFact, &
!!$!
!!$      & ShortBandNum, &
!!$      & ShortAbsorpCoefQVap, ShortAbsorpCoefDryAir, &
!!$      & ShortBandWeight, ShortSecScat, &
!!$      & ShortAtmosAlbedo, &
!!$!
!!$      & RstInputFile, RstOutputFile
          !
          ! デフォルト値については初期化手続 "rad_utils#RadInit" 
          ! のソースコードを参照のこと. 
          !
          ! Refer to source codes in the initialization procedure
          ! "rad_utils#RadInit" for the default values. 
          !

    ! 実行文 ; Executable statement
    !

    if ( rad_utils_inited ) return

    ! デフォルト値の設定
    ! Default values settings
    !
    DiffFact = 1.66_DP

    ! NAMELIST の読み込み
    ! NAMELIST is input
    !
    if ( trim(namelist_filename) /= '' ) then
      call FileOpen( unit_nml, namelist_filename, mode = 'r' ) ! (in)

      rewind( unit_nml )
      read( unit_nml, nml = rad_utils_nml, iostat = iostat_nml )             ! (out)
      close( unit_nml )

      call NmlutilMsg( iostat_nml, module_name ) ! (in)
    end if


    ! ヒストリデータ出力のためのへの変数登録
    ! Register of variables for history data output
    !
    call HistoryAutoAddVariable( 'OLR', (/ 'lon ', 'lat ', 'time' /), 'outgoing longwave', 'W m-2' )

    call HistoryAutoAddVariable( 'SLR', (/ 'lon ', 'lat ', 'time' /), 'surface longwave', 'W m-2' )

    call HistoryAutoAddVariable( 'OSR', (/ 'lon ', 'lat ', 'time' /), 'outgoing shortwave', 'W m-2' )

    call HistoryAutoAddVariable( 'SSR', (/ 'lon ', 'lat ', 'time' /), 'surface shortwave', 'W m-2' )

    call HistoryAutoAddVariable( 'OLRB', (/ 'lon ', 'lat ', 'time' /), 'outgoing longwave', 'W m-2' )

    call HistoryAutoAddVariable( 'SLRB', (/ 'lon ', 'lat ', 'time' /), 'surface longwave', 'W m-2' )

    call HistoryAutoAddVariable( 'OSRB', (/ 'lon ', 'lat ', 'time' /), 'outgoing shortwave', 'W m-2' )

    call HistoryAutoAddVariable( 'SSRB', (/ 'lon ', 'lat ', 'time' /), 'surface shortwave', 'W m-2' )

    call HistoryAutoAddVariable( 'OLRA', (/ 'lon ', 'lat ', 'time' /), 'outgoing longwave', 'W m-2' )

    call HistoryAutoAddVariable( 'SLRA', (/ 'lon ', 'lat ', 'time' /), 'surface longwave', 'W m-2' )

    call HistoryAutoAddVariable( 'OSRA', (/ 'lon ', 'lat ', 'time' /), 'outgoing shortwave', 'W m-2' )

    call HistoryAutoAddVariable( 'SSRA', (/ 'lon ', 'lat ', 'time' /), 'surface shortwave', 'W m-2' )

    call HistoryAutoAddVariable( 'DTempDtRadL', (/ 'lon ', 'lat ', 'sig ', 'time' /), 'long wave radiative heating rate', 'K s-1' )

    call HistoryAutoAddVariable( 'DTempDtRadS', (/ 'lon ', 'lat ', 'sig ', 'time' /), 'short wave radiative heating rate', 'K s-1' )


    ! 印字 ; Print
    !
    call MessageNotify( 'M', module_name, '----- Initialization Messages -----' )
    call MessageNotify( 'M', module_name, 'DiffFact = %f', d = (/ DiffFact /) )
    call MessageNotify( 'M', module_name, '-- version = %c', c1 = trim(version) )

    rad_utils_inited = .true.

  end subroutine RadInit
module_name
Constant :
module_name = ‘rad_utils :character(*), parameter
: モジュールの名称. Module name
version
Constant :
version = ’$Name: dcpam5-20110327 $’ // ’$Id: rad_utils.f90,v 1.2 2011-03-28 03:17:04 yot Exp $’ :character(*), parameter
: モジュールのバージョン Module version